Tiina Pessa-Morikawa

Tyrosine phosphorylation of CD45 phosphotyrosine phosphatase by p50csk kinase creates a binding site for p56lck tyrosine kinase and activates the phosphatase.

Src family protein tyrosine kinases (PTKs) play an essential role in antigen receptor-initiated lymphocyte activation. Their activity is largely regulated by a negative regulatory tyrosine which is a substrate for the activating action of the CD45 phosphotyrosine phosphatase (PTPase) or, conversely, the suppressing action of the cytosolic p50csk PTK. Here we report that CD45 was phosphorylated by p50csk on two tyrosine residues, one of them identified as Tyr-1193. This residue was not phosphorylated by T-cell PTKs p56lck and p59fyn. Tyr-1193 was phosphorylated in intact T cells, and phosphorylation increased upon treatment with PTPase inhibitors, indicating that this tyrosine is a target for a constitutively active PTK. Cotransfection of CD45 and csk into COS-1 cells caused tyrosine phosphorylation of CD45 in the intact cells. Tyrosine-phosphorylated CD45 bound p56lck through the SH2 domain of the kinase. Finally, p50csk-mediated phosphorylation of CD45 caused a severalfold increase in its PTPase activity. Our results show that direct tyrosine phosphorylation of CD45 can affect its activity and association with Src family PTKs and that this phosphorylation could be mediated by p50csk. If this is also true in the intact cells, it adds a new dimension to the physiological function of p50csk in T lymphocytes.

Leukocyte integrins and inflammation

Abstract. Leukocyte adhesion is of pivotal functional importance. Without adequate adhesion, T lymphocytes and natural killer cells are not cytotoxic, B cells cannot develop into antibody secreting plasma cells, leukocytes do not home into inflamed tissues and myeloid cells are not able to phagocytize or exhibit chemotactic responses. During evolution several leukocyte adhesion molecules have developed belonging to a few molecular families. Among these, the leukocyte-specific integrins (β2 integrins, CD11/CD18 molecules) are among the most important. Much progress has taken place during the past few years, and at present we have a considerable knowledge of their structure and function. Inflammation is critically dependent on integrin activity, and its regulation forms the topic of this short review.

Induction of hyperphosphorylation and activation of the p56lck protein tyrosine kinase by phenylarsine oxide, a phosphotyrosine phosphatase inhibitor

The T cell protein tyrosine kinase p56lck is implicated in thymic development and mitogenic activation of T lymphocytes, and is itself regulated by reversible tyrosine phosphorylation. When phenylarsine oxide (PAO), a membrane-permeable inhibitor of phosphotyrosine phosphatases, was added to Jurkat T leukemia or LSTRA thymoma cells, the phosphate content of p56lck increased rapidly. The sites of increased phosphorylation were mapped to Tyr-192, Tyr-394 and Tyr-505. Hyperphosphorylated p56lck displayed retarded mobility on SDS gels, unaltered or marginally increased cytoskeletal association, and its catalytic activity changed in a biphasic manner; during the first 10-20 min of PAO-treatment the activity increased and then it declined to very low values within 1-2 hr. Our data suggest that p56lck contains both positive and negative regulatory sites which are constantly dephosphorylated at an unexpectedly high rate by cellular phosphotyrosine phosphatases.

Persistent differences in the level of chimerism in B versus T cells of freemartin cattle

Parabiosis during pregnancy regularly results in an exchange of hematopoietic stem cells between cattle twins. We have exploited this phenomenon and show differences in the levels of chimerism between the descendant cell types. Female recipients were screened for the levels of male donor contribution in surface IgM-bearing B lymphocytes versus CD3(+) T lymphocytes using immunomagnetic fractionation and Y-chromosome specific in situ hybridization. Two calves of 15 were discovered to have less than 10% of B cells but over 70% of T cells and other blood leukocytes of male origin. The donor cell ratios remained stable for 9 months. Analysis of lymphoid tissues revealed a similar cell type specific pattern of male cell ratios in both female calves and one twin brother. These findings are in agreement with the existence of an essentially self-sufficient population of developing B cells that gives rise to the peripheral pool of B lymphocytes in young cattle.

Limited contribution of circulating cells to the development and maintenance of nonhematopoietic bovine tissues

Bone marrow‐derived stem cells appear surprisingly multipotent in experimental settings, but the physiological significance of such plasticity is unclear. We have used sex‐mismatched cattle twins with stably chimeric hematopoietic systems to investigate the general extent of integration of circulating cells to the nonhematopoietic cell lineages in an unmanipulated large mammal. The donor‐derived (Y+) nonhematopoietic cells in female recipient tissues were visualized by Y‐chromosome specific in situ hybridization combined with pan‐leukocyte labeling. Y+ leukocytes were frequent in all tissues, but in 11 of 12 animals, average contribution to nonhematopoietic lineages was in any tissue below 1% (in brain <0.001%). Significantly higher integration rate was detected in regenerating granulation tissue. Also, one animal showed a high frequency of nonhematopoietic Y+ cells in several tissues, including intestinal epithelium and mammary gland stroma. In conclusion, circulating cells do not appear significant in the development and maintenance of nonhematopoietic bovine tissues, but may be important in regeneration and other special conditions.

Direct observation of hematopoietic progenitor chimerism in fetal freemartin cattle

BackgroundCattle twins are well known as blood chimeras. However, chimerism in the actual hematopoietic progenitor compartment has not been directly investigated. Here, we analyzed fetal liver of chimeric freemartin cattle by combining a new anti-bovine CD34 antibody and Y-chromosome specific in situ hybridization.ResultsBull-derived CD34+ cells were detected in the liver of the female sibling (freemartin) at 60 days gestation. The level of bull-derived CD34+ cells was lower in the freemartin than in its male siblings. Bull (Y+) and cow hematopoietic cells often occurred in separate clusters. Around clusters of Y+CD34+ cells, Y+CD34- cells were typically observed. The thymi were also strongly chimeric at 60 days of gestation.ConclusionThe fetal freemartin liver contains clusters of bull-derived hematopoietic progenitors, suggesting clonal expansion and differentiation. Even the roots of the hematopoietic system in cattle twins are thus strongly chimeric from the early stages of fetal development. However, the hematopoietic seeding of fetal liver apparently started already before the onset of functional vascular anastomosis.

B-cell development in bovine fetuses proceeds via a pre-B like cell in bone marrow and lymph nodes

The production of B cells and the primary antibody repertoire in mammalian species other than rodents or man appears to depend on gut-associated lymphoid tissue. Bovine B cells are generated in ileal Peyers patch from late gestational to juvenile age. However, little is known about where and when the bona fide B lymphopoiesis takes place. We analyzed bovine fetuses for signs of ongoing B lymphopoiesis using a combination of immunohistochemistry, flow cytometry, real-time quantitative PCR and RNA in situ hybridization. In fetal bone marrow and lymph node, we could demonstrate pre-B like cells positive for intracellular Ig mu but negative for membrane IgM. Strong expression of immunoglobulin lambda-like polypeptide 1 and recombination activating genes was also detected in the same tissues. Similar analyses did not reveal pre-B like cells in the corresponding adult tissues. These results suggest that bovine fetal bone marrow and lymph node support B lymphopoiesis via a pre-B cell like stage before and in parallel to the development of the ileal Peyers patch.

Oligoclonal Peyer's patch follicles in the terminal small intestine of cattle.

In small ruminants, the development of B cells differs from that in mice or in man. The anti-body repertoire is expanded in the Peyers patches of the terminal ileum where each B-cell follicle is found by a few cells. To investigate the amount of founder clones in bovine ileal follicles, we have used sex mismatched cattle twins. These animals are chimeric due to placental anastomoses. Y-chromosome targeted in situ hybridization was used to trace donor-derived cells of the male genotype in a female recipient (called a freemartin). A strong clustering of lymphoid cells originating from either twin was seen in the ileal Peyers patches (IPPs). Furthermore, the follicles displayed a low amount of immunoglobulin heavy chain gene configurations in comparison with the splenic or jejunal follicles. These findings strongly suggest that as in sheep, the B-cell follicles in cattle IPPs develop oligoclonally.

Reduced tyrosine phosphorylation in polyamine-starved cells

Onset of cell proliferation is associated with enhanced turnover of the polyamines putrescine, spermidine, and spermine, particularly evident in the massive increase in the activity of the rate-limiting enzyme in their production, ornithine decarboxylase (ODC). The physiological functions of these polyamines, however, have remained unclear. Here we report that treatment of LSTRA cells for 2-18 h with alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of ODC, decreased the amount of phosphotyrosine in several cellular substrates including the T cell protein tyrosine kinase p56lck. No reductions in the amount of p56lck, overall synthesis of protein and DNA, or cell viability were observed until much later. DFMO did not affect the catalytic activity of p56lck in vitro and the activity of p56lck immunoprecipitated from DFMO-treated cells was unaltered. Addition of putrescine, the reaction product of ODC, completely reversed the effect of DFMO on tyrosine phosphorylation. Finally, we provide evidence that polyamines reduce the activity of cellular protein tyrosine phosphatases toward endogenous substrates. Our results suggest that polyamines may influence the extent of tyrosine phosphorylation during cell proliferation and malignant transformation, perhaps by modulating the rate of dephosphorylation of specific target proteins.

Expansion of the Preimmune Antibody Repertoire by Junctional Diversity in Bos taurus

Cattle have a limited range of immunoglobulin genes which are further diversified by antigen independent somatic hypermutation in fetuses. Junctional diversity generated during somatic recombination contributes to antibody diversity but its relative significance has not been comprehensively studied. We have investigated the importance of terminal deoxynucleotidyl transferase (TdT) -mediated junctional diversity to the bovine immunoglobulin repertoire. We also searched for new bovine heavy chain diversity (IGHD) genes as the information of the germline sequences is essential to define the junctional boundaries between gene segments. New heavy chain variable genes (IGHV) were explored to address the gene usage in the fetal recombinations. Our bioinformatics search revealed five new IGHD genes, which included the longest IGHD reported so far, 154 bp. By genomic sequencing we found 26 new IGHV sequences that represent potentially new IGHV genes or allelic variants. Sequence analysis of immunoglobulin heavy chain cDNA libraries of fetal bone marrow, ileum and spleen showed 0 to 36 nontemplated N-nucleotide additions between variable, diversity and joining genes. A maximum of 8 N nucleotides were also identified in the light chains. The junctional base profile was biased towards A and T nucleotide additions (64% in heavy chain VD, 52% in heavy chain DJ and 61% in light chain VJ junctions) in contrast to the high G/C content which is usually observed in mice. Sequence analysis also revealed extensive exonuclease activity, providing additional diversity. B-lymphocyte specific TdT expression was detected in bovine fetal bone marrow by reverse transcription-qPCR and immunofluorescence. These results suggest that TdT-mediated junctional diversity and exonuclease activity contribute significantly to the size of the cattle preimmune antibody repertoire already in the fetal period.